%% Define parameter estimates

%     param.kappa     = est(1);   %1. matching friction (kappa)
%     
%     param.nu_y      = 0;        %   complementarity (nu_y)
%     
%     param.mu_E      = est(2);   %2. mean of log export cost (mu_E)
%     param.sigma_E   = est(3);   %3. sd of log export cost (sigma_E)
%     param.b1        = est(4);   %4. foreign demand shifter (b1)
%     param.b2        = est(5);   %5. foreign demand curvature (b2)
%     
%     param.omega1_sd = est(6);   %6. sd of omega1 (omega1_sd) 
%     param.omega0_sd = est(7);   %7. sd of omega0 (omega0_sd)
%     param.omega_rho = est(8);   %8.correlation (sigma_rho)
%     param.omega2    = est(9);   %9.omega2  


    param.kappa     = 9.537035251516702e-04;   %1. matching friction (kappa)
    
    param.nu_y      = 0;        %   complementarity (nu_y)
    
    param.mu_E      = -4.047496239975548;   %2. mean of log export cost (mu_E)
    param.sigma_E   = 1.668630672813404;   %3. sd of log export cost (sigma_E)
    param.b1        = 70.261788657877450;   %4. foreign demand shifter (b1)
    param.b2        = 0.412510274839866;   %5. foreign demand curvature (b2)
    
    param.omega1_sd = 0.134145453907285;   %6. sd of omega1 (omega1_sd) 
    param.omega0_sd = 0.127604532970549;   %7. sd of omega0 (omega0_sd)
    param.omega_rho = 0.135531359868045;   %8.correlation (sigma_rho)
    param.omega2    = -0.105213098182205;   %9.omega2  

    